873-58-5Relevant articles and documents
Simultaneous determination of cobalt and nickel using morpholinedithiocarbamate (MDTC) as reagent by first and second derivative spectrophotometry
Kaur, Varinder,Malik, Ashok Kumar,Verma, Neelam
, p. 715 - 722 (2007)
A selective and sensitive derivative method has been proposed for the simultaneous determination of trace amounts of Co(II) and Ni(II) with morpholinedithiocarbamate (MDTC) in the presence of sodium lauryl sulphate (SLS). The molar absorption coefficients of the 1:2 complex of Co(II) and Ni(II) at 326 nm and 322 nm are 2.248 × 104 and 2.505 × 10 4 L mol-1 cm-1 for zero order. The analytical sensitivity for the second derivative of Co(II) and Ni(II) complexes are 0.0044 μg mL-1 and 0.0060 μg mL-1. The developed derivative procedure, using the zero-crossing technique, has been successfully applied for the analysis of Co(II) and Ni(II) simultaneously in different alloy samples.
Synthesis and crystal structure of bis(morpholino dithiocarbamato) Cd(II) complex and its use as precursor for CdS quantum dots using different capping agents
Mphahlele, Lebogang L. R.,Ajibade, Peter A.
, p. 648 - 663 (2019)
Cadmium(II) morpholine dithiocarbamate complex [Cd(morphdtc)2] was synthesized and characterized by single crystal X-ray crystallography. The molecular structure of the complex showed Cd(II) ion in a distorted 4 + 2 octahedral geometry, in which the two morpholine dithiocarbamates act as bidentate chelating and the central Cd ion bond the sulfur atoms of adjacent morpholine acting as bridging ligands to form centrosymmetric five coordinate dimeric molecules. The Cd(II) complex was thermolysed at 180°C to prepare CdS nanoparticles using three different capping agents. The pXRD patterns revealed a mixture of hexagonal and cubic crystalline phases of CdS nanocrystals. TEM images revealed semi-spherical and spherical nanoparticles, with the size range of 4.50–5.70 nm for OLM-CdS, 3.33–5.96 nm for HDA-CdS, and 3.00–5.83 nm for ODA-CdS. The particle size distribution of the CdS nanocrystallite is within the range 1.06 nm (SD ± 0.73) for OLM-CdS, 0.68 nm, (SD ±0.73) for HDA-CdS and 1.18 nm, (SD ± 0.60) for ODA-CdS. The lattice fringes showed that the particles are almost in the same environment with the interplanar of 0.32 nm for OLM-CdS, 0.34 nm for HDA-CdS, and 0.32 nm ODA-CdS. The band gaps energy were confirmed to be 1.59 eV for OLM-CdS, 1.65 eV for HDA-CdS, and 1.62 eV for ODA-CdS nanoparticles, respectively.
Transesterification reactions of dimethoxycarbonylethyltin- morpholinodithiocarbamate, [(MeO2CCH2CH2)2Sn(MDTC)2]: Synthesis, spectroscopy, X-ray structural characterization and DFT calculations of new diestertin dithiocarbamate complexes – Part II
de Morais,Donnici,Rodrigues,de Lima,Wardell,Nascimento,Bitzer
, p. 161 - 168 (2017)
The scarcity of studies concerning diestertin(IV) dithiocarbamate complexes led us to investigate the spectroscopic and structural properties of [(RO2CCH2CH2)2Sn(MDTC)2] (R?=?Me (1) or Et (2); MDTC?=?morpholinodithiocarbamate). The reaction of [(MeO2CCH2CH2)2SnCl2] with sodium morpholinodithiocarbamate (NaMDTC) in CHCl3 afforded (1), while the transesterification reaction of (1) with EtOH in the presence of dmso yielded (2). Both diestertin(IV) complexes were characterized by elemental analysis, FTIR and multinuclear (1H, 13C and 119Sn) NMR spectroscopy, and single-crystal X-ray diffraction. Our X-ray structural analysis revealed that (1) and (2) exhibit a distorted pentagonal bipyramidal coordination geometry. In both cases, the apical positions are occupied by ester groups while the equatorial plane displays two bidentate morpholinodithiocarbamate ligands and one intramolecular C[dbnd]O?Sn interaction. The O?Sn distances amount to 2.632 (1) and 2.618?? (2). According to our supramolecular analysis, the crystal arrangement of each product is assembled by weak C–H?O and C–H?S hydrogen bonds. Finally, a DFT study of the six- and seven-coordinate forms of (1) and (2) allowed an upper-bound estimate of the intramolecular C[dbnd]O?Sn interaction energy, ?3.7?kcal?mol?1.
Pseudo-Polymeric Mercury(II) Morpholinedithiocarbamate [Hg{S2CN(CH2)4O}2] n: Supramolecular Structure (a Role of Secondary Hg···S Bonds), 13C and 15N CP-MAS NMR Spectra, and Thermal Behavior
Loseva,Rodina,Ivanov
, p. 22 - 29 (2019)
Abstract: A new representative of mercury(II) dithiocarbamate complexes, crystalline bis(morpholinedithiocarbamato-S,S')mercury(II) with the pseudo-1D-polymeric structure, is preparatively synthesized. The structure is characterized by 13С and 15N MAS NMR spectroscopy and X-ray diffraction analysis (CIF file CCDC no. 1821609). Pairs of symmetric secondary Hg???S bonds (3.400 ?) combine mononuclear [Hg{S2CN(CH2)4O}2] molecules, including planar polygons [HgS4], into a linear pseudo-polymeric chain. The study of the thermal behavior shows that the two-stage mass loss detected by thermogravimetry is due to the thermal destruction of the complex with the formation of HgS and its subsequent sublimation.
Dithiocarbamates combined with copper for revitalizing meropenem efficacy against NDM-1-producing Carbapenem-resistant Enterobacteriaceae
Chen, Cheng,Yang, Ke-Wu,Zhai, Le,Ding, Huan-Huan,Chigan, Jia-Zhu
supporting information, (2021/11/20)
The worldwide prevalence of NDM-1-producing Gram-negative pathogens has drastically undermined the clinical efficacy of carbapenems, prompting a need to devise an effective strategy to preserve their clinical value. Here we constructed a focused compound library of dithiocarbamates and systematically evaluated their potential synergistic antibacterial activities combined with copper. SA09-Cu exhibited excellent inhibition against a series of clinical NDM-1-producing carbapenem-resistant Enterobacteriaceae (CRE) in restoring meropenem effect, and slowed down the development of carbapenem resistance. Enzymatic kinetic and isothermal titration calorimetry studies demonstrated that SA09-Cu was a noncompetitive NDM-1 inhibitor. The electron paramagnetic resonance (EPR) and X-ray photoelectron spectroscopy (XPS) revealed a novel inhibition mechanism, which is that SA09-Cu could convert NDM-1 into an inactive state by oxidizing the Zn(II)-thiolate site of the enzyme. Importantly, SA09-Cu showed a unique redox tuning ability, and avoided to be reduced by intracellular thiols of bacteria. In vivo experiments indicated that SA09 combined with CuGlu could effectively potentiate MER's effect against NDM-1-producing E. coli (EC23) in the murine infection model. This study provides a highly promising scaffold in developing novel inhibitors to combat NDM-1-producing CREs.
Synthesis, characterization, and electrochemical studies of Co(II, III) dithiocarbamate complexes
Andrew, Fartisincha P.,Ajibade, Peter A.
, p. 1171 - 1186 (2019/04/10)
Cobalt(II) complexes of N-methyl phenyl, 1-phenylpiperazyl, and morpholinyl dithiocarbamates have been synthesized and characterized by UV–Visible, FTIR, 1H-, 13C-NMR, and mass spectrometry. The spectroscopic data indicated that two ligands coordinated in bidentate chelating to the metal ion to form four-coordinate cobalt(II) complexes (1–3), which was confirmed by mass analysis (TOF MS ES+) of the complexes with m/z [M]+ = 450.98, 382.94, and 382.94 for 1, 2, and 3, respectively. Single crystal analysis of 2A and 3A show centrosymmetric mononuclear cobalt(III) bonded to three dithiocarbamate ligands forming a distorted octahedral geometry, indicating the cobalt(II) undergoes aerial oxidation to cobalt(III) during recrystallization. In addition, 2A crystallized with one solvated molecule of toluene. The redox behaviors of the complexes were studied by cyclic and square wave voltammetry in dichloromethane; the result revealed a metal centered redox process consisting of a one-electron quasi-reversible process assigned to Co(III)/Co(IV) oxidation and a corresponding Co(IV)/Co(III) reduction. Randles–Sevcik plots (anodic peak current versus the square root of the scan rate (Ip,a versus ν1/2)) for the redox couples revealed diffusion-controlled behavior.